Cargo tie-down system

ABSTRACT

A cargo restraint system comprising, a network of restraining tie-down arms having interconnected common proximal extremities and a plurality of distal extremities, said network arranged to form an angle between each arm, the vertex of said angle being congruent with the common proximal extremities, with a first fastener secured to the arms at the vertex of the angle and a second fastener secured to each of the distal extremities of the arms. Preferably, each of the arms carries a third fastener or connecting eye intermediate the first and second fasteners.

FIELD OF THE INVENTION

[0001] The present invention relates to a method and apparatus for restraining cargo that is being transported on a truck, a railroad flat car or in an aircraft.

BACKGROUND OF THE INVENTION

[0002] Increasing concern about the safety and efficiency of state-of-the-art methods of restraining in-transit cargo has led to increased government regulation and changing industry practice. It is recognized that continued reliance on past practices and currently available equipment will lead inevitably to the continuation of shifting loads, damaged goods and accidents resulting from freight falling onto a highway from a transporting vehicle.

[0003] The majority of current cargo restraint systems comprise one or more belts that cover the load and are attached at each of their ends to anchoring attachments along the edge of or embedded in the surface of the bed of the transport device, whether rail, air or highway vehicle. Using more belts or straps to better secure the load is impractical because the number of anchor points on existing transports limits the number of belts and their effective spacing. In addition, as the height of the cargo increases, so does the instability and ineffectiveness of the restraining system. Furthermore, while presently available straps or belts may be suitable for securing containerized or non-containerized cargo, they do not allow for proper retention of stacked cargo, that is, cargo that is piled onto cargo that is already secured with all of the means that are available. Instances of multiple load packages that are of divergent shapes, sizes and character that must be stacked one on top of the other occur frequently in military applications. For example, a rigid container may be secured to the bed of a truck with available straps and a soft load of tents may be placed on top of the container. In such a case the surface anchoring attachments for restraining belts or straps to secure the superimposed load are either not available or are too widely spaced laterally from the soft load to obtain an effective purchase between the load and the securing straps or restraining network.

[0004] Accordingly, it is the primary objective of the present invention to provide a tie-down system for in-transit cargo that prevents articles from shifting on or within, or falling from the transporting device which can be a road vehicle, all terrain vehicle, ship, railroad car or aircraft.

[0005] A second object of the invention is to provide a cargo tie-down apparatus that multiplies the number of anchoring points for attachment of cargo restraints.

[0006] Another object of the invention is to provide a tie-down system that places the additional anchoring points closer to the higher load elements of stacked cargo for an improved wrap of the load-restraining straps around the top and sides of the stacked load to prevent shifting and movement of the load.

[0007] A further object of the invention is to provide a load securement system that will allow upper and lower elements of a total load to be separately secured but with common anchoring points, permitting, among other things, the upper load to be off-loaded without disturbing the securement of the lower portion of the load.

[0008] Another object of the invention is to increase the securement and stability of loads that are placed on vehicles that are required to traverse rough terrain.

[0009] Yet another object of the invention is to provide a novel method of tying down cargo on a transport device that prevents articles from shifting on or within, or falling from the transporting device.

[0010] Other and further objects, features and advantages of the tie-down system of the present invention will become apparent upon a reading of the following description of a preferred form of the invention.

SUMMARY OF INVENTION

[0011] The apparatus of the present invention includes a multi-armed tie-down strap, where the arms angularly converge to a common vertex that is equipped with a single fastener for attachment to one of the anchoring points located on or in the bed of the transport device, such as a flat bed truck, ship, railroad car or aircraft. The free or distal ends of the tie-down strap arms are each provided with a connector that is adapted to connect to one end of a load-restraining strap, belt, rope, cable, net or similar means. Preferably, each of the tie-down strap arms carries a secondary connector for fastening to the end of a second or supplementary load-restraining strap. With the use of the multi-armed tie-down straps each of the anchoring points of the transport device may be multiplied by two, four, six or more. Interconnecting or stacking two of the multi-arm tie-down straps between the transport anchoring point and the load-restraining straps may multiply the single anchoring point even further.

DESCRIPTION OF THE DRAWINGS

[0012]FIG. 1 is a front view of the multi-arm tie-down strap of the preferred form of the present invention having two arms that form a V.

[0013]FIG. 2 is a cross section of the tie-down strap taken along lines 2-2 of FIG. 1.

[0014]FIG. 3 is a side view of a representative stacked load secured to the bed of a truck with multiple load-restraining straps that are attached to respective arms of the tie-down strap of the present invention.

[0015]FIG. 4 is a rear end view of the load illustrated in FIG. 3.

[0016]FIG. 5 is a side view of a multiple character stacked load showing the use of stacked tie-down straps to further multiply the available anchoring points for attachment of load-restraining straps.

[0017]FIG. 6 is a rear end view of a further use of stacked multi-arm tie-down straps for stacked loads that are narrower in their width than the load element upon which they rest.

[0018]FIG. 7 is a front view of an alternative embodiment of the multi-arm tie-down strap where three arms are provided with a common vertex.

DETAILED DESCRIPTION OF THE INVENTION

[0019] The preferred form of the multi-armed tie-down strap 2 of the present invention is shown in FIG. 2. This embodiment of the invention contemplates two arms comprising straps 4 and 6 of equal length arranged in a “V” shape with their common ends forming the vertex 7 of the “V” angle. The common ends of the straps 4 and 6 are sewn or otherwise fastened together at the vertex 7 and a hook fastener 10 is attached to the common ends by a familiar slot connection. Although the description of the invention and the accompanying claims will describe the multi-armed tie-down as a “strap” or having “straps” forming the arms of the apparatus, any tension strength device or material will work. Such other arm material may include webbing, rope, cable, chain or belting to cite a few. The common interconnected ends of the arm straps that form the vertex 7 of the “V” shape may be referred to as the proximal end of the tie-down device 2. The “free” ends 12 and 14 of the respective arm straps 4 and 6 may be referred to as the distal ends of the straps.

[0020] Clasps or eye connectors 16 and 18 are attached to the distal ends of the arm straps 4 and 6. The arm straps 4 and 6 slidably carry a second pair of clasps or buckle frames 20 and 22. While shown in the preferred form of the invention as being slidably connected to the straps 4 and 6, the second pair of clasps 20 and 22 can be secured to a fixed location on the straps 4 and 6. The slidable connection is preferred because there may be circumstances where one of the secondary connectors is not used and if it is slidable on the arm strap it can be gotten out of the way so that it will not interfere with other connections. However, if fixed, the location would preferably be at or near the distal end of the strap that carries the connector.

[0021] Although the preferred form of the invention contemplates a two arm tie-down strap, as shown in FIGS. 2-5 of the accompanying drawings, three or four angularly interrelated arms whose proximal ends are interconnected at a common point with a fastener are possible alternative embodiments. FIG. 7 shows such an alternative embodiment having three angularly interrelated arms 11, 13 and 15. When more than two arm straps are provided each arm has similar characteristics and similar connectors as described for the “V” embodiment of FIG. 2. Such arrangements would multiply the number of anchor points beyond the doubling provided by the preferred two-arm “V” assembly.

[0022] To illustrate and explain possible uses of the multi-arm tie-down 2, reference is made to FIGS. 3-5. FIG. 3 illustrates a multi-character palletized load situated on the bed 30 of a truck (not shown). The truck bed is assumed to have four anchoring points 31, 32, 33 and 34 on each of its sides. The cargo consists of two tall palletized containers 36 and 37 on top of which is stacked a soft package 38. To the rear of the tall containers is a single shorter palletized container 39 on top of which is stacked another similar container 41 on top of which is stacked a third type of load 42. Four tie-down straps 2 are employed on each side of the truck bed with the vertex fasteners 10 being connected to the anchoring points. A plurality of load-restraining straps 45 with ratchet end attachments 47 are shown in their securing positions over the containers 36, 37 and 41.

[0023] Two ratchet load-restraining straps 45 embrace the top of the front container 36 with the ratchet ends of those load-restraining straps interconnected to the distal end connectors 16 and 18 of the tie-down strap 2 a. Similarly, two load-restraining straps 45 secure the load element 37 by being attached to the distal end connectors 16 and 18 of the tie-down strap 2 b. Ratchet ended load-restraining straps 48 enfold the stacked soft load 38. The ends of the straps 48 are attached to the secondary fasteners 22 and 20 respectively of the tie-down straps 2 a and 2 b.

[0024] The rear load elements 39, 41 and 42 are similarly secured with three load-restraining straps 45 embracing the top of the upper container 41 and being connected to the distal end connectors 16 and 18 of tie-down strap 2 c and distal end connectors 16 and 18 of the fourth tie-down strap 2 d. The upper stacked load element 42 is secured by three load restraining straps 49 that are respectively connected to the secondary connectors 20 and 22 of tie-down strap 2 c and to the secondary connector 22 of tie-down strap 2 d. The side of the truck bed not shown is similarly arranged and connected.

[0025] If the load requires securement with significantly more load-restraining straps than there are available anchor points on the transport device, it is possible to stack, or connect in series, two levels of the multi-arm tie-down straps, as shown in FIG. 5. Thus, instead of multiplying the anchoring point by two with the use of one of the inventive tie-down straps, the use of three tie-down straps on two levels provides four anchoring points. As seen in FIG. 5, connecting the vertex fasteners 10 of two tie-down straps 2 g and 2 h to the distal end connectors 16 and 18 of a single tie-down strap 2 f accomplishes the “stacking” of tie-down straps in two levels. The vertex fastener 10 of the single tie-down strap 2 f is connected to an anchoring point on the transport device.

[0026] The stacking of tie-down straps has another important feature, as illustrated in FIG. 6b. Where narrow load elements are piled on top of wider cargo, the load-restraining straps may only make tangential contact with the top load element, as seen in FIG. 6a. This limited engagement may provide the required downward force on the top load element, but very little lateral support, permitting the top load to shift sideways with undesirable results. By stacking the tie-downs as shown in FIG. 6a, the anchoring points for the top load element 52 are brought in closer to the load so that the load-restraining strap 55 that covers the top load can closely wrap around the sides of the load, providing lateral support and improved securement of the top load element 52. Reference is made to FIG. 6b where the bottom tie-down strap 2 j is shown secured to the anchoring point on the transport device. A second tie-down strap 2 k is attached to the first tie-down strap in the manner already discussed in connection with FIG. 5. The second tie-down strap 2 k wraps around a portion of the bottom load element 51. A load-restraining strap 54 interconnects the right and left tie down straps 2 k and is tightened by the ratchet ends on the load-retaining strap. The secondary connectors 22 on the tie-down straps 2 k provide anchoring points for the load-restraining strap 55 that covers the sides and top of the top load element 52.

[0027] While several uses of the tie-down strap of the present invention have been illustrated and discussed, a variety of other configurations and arrangements may be employed to more safely and effectively secure in-transit cargo and thus satisfy the object of the invention. 

I claim:
 1. A cargo restraint system comprising, a network of restraining tie-down arms having interconnected common proximal extremities and a plurality of distal extremities, said network arranged to form an angle between each arm, the vertex of said angle being congruent with the common proximal extremities, first fastener means secured to the arms at the vertex of the angle, second fastener means secured to each of the distal extremities of the arms.
 2. The restraint system of claim 1 and further including third fastener means carried by at least one of the arms of the network and disposed intermediate the proximal and distal extremities of the band.
 3. The restraint system of claim 2 where the third fastener means is slidably attached to the at least one of the arms.
 4. A cargo restraint system comprising, elongated strap means having first and second distal extremities and having first fastener means attached to the strap intermediate the first and second distal extremities, second fastener means attached to the first distal extremity, third fastener means attached to the second distal extremity, and fourth fastener means carried by the strap intermediate the first fastener means and the second and third fastener means.
 5. The cargo restraint system of claim 4 where the first fastener means is attached to the strap at a point bisecting the length of the strap means.
 6. A method of restraining cargo on a surface having at least two spaced apart anchoring points, including the steps of, attaching the vertex of a first angularly bifurcated restraining strap having two distal extremities to one of the surface anchor points, attaching the first ends of each of two first tie-down straps to each of the two distal extremities of the first angularly bifurcated restraining strap, placing the two first tie-down straps over a first cargo disposed on the surface, attaching the second ends of the two first tie-down straps to each of the two distal extremities of a second angularly bifurcated restraining strap, and attaching the vertex of the second angularly bifurcated restraining strap to the other of the surface anchor points.
 7. The method of claim 6 and further including, superimposing a second cargo over the first cargo, placing at least one second tie-down strap having first and second ends over the second cargo, attaching the first end of the second tie-down strap to a point on one of the first bifurcated restraining straps, attaching the second end of the second tie-down strap to a point on one of the second bifurcated restraining straps.
 8. A method of multiplying the anchor points for tying down cargo on a surface having at least one anchor point, including, attaching the single common point of a first multi-armed strap network to the anchor point on the surface, attaching tie down means to each of the arms of the first strap network.
 9. The method of claim 8 where the tie down means includes at least one second multi-armed strap network having its common point attached to at least one of the arms of the first strap network. 